Reaction Wood Reaction wood is formed as a response by the tree to a triggering event such as tipping from the vertical. It is also known to regulate the.

Slides:

Advertisements

Similar presentations

Introduction to Woods 1 Close up of Vessel & Cell.

Advertisements

Wood Anatomy of Tree Rings. Tree growth begins with photosynthesis to produce new wood when the growing season begins.

Wood Characteristics, Machining & Coating Properties of Rubberwood Plantation in China Haikou International Workshop on Rubberwood Processing.

Materials for Civil and Construction Engineers CHAPTER 10 Wood

1 The Science and Engineering of Materials, 4 th ed Donald R. Askeland – Pradeep P. Phulé Chapter 17 – Construction Materials.

Characteristics of timber - Relationship to properties

Mechanical Properties MAJOR PROPERTIES: 1.Strength 2.Stiffness Defects are not controllable in large sized pieces Full sized members are not homogenous.

Timber Defects. Knots A hard cross grain mass of wood that is formed in the trunk of a tree where a branch grows. Knots spoil the appearance and reduce.

1 Review What are three important functions of stems Explain How does the arrangement of vascular bundles in monocot stems differ from dicot stems Apply.

Pulping and Bleaching PSE 476: Lecture 41 Pulping and Bleaching PSE 476/Chem E 471 Lecture #4 Introduction to Chemical Pulping Lecture #4 Introduction.

Softwood Microanatomy

”Wood Defects” Knots, Spiral Grain, Juvenile Wood, and Reaction Wood

Juvenile Wood in Pines. Overview Basics Of Wood Production What Is Juvenile Wood Characteristics What influences Juvenile Wood What Are The Problems With.

Tree Growth and Wood Formation

Introduction to Woods1 Composition and Basic Structure of Wood Classifications of Woods Behavior and Properties of Woods.

1 Wood Chemistry PSE 406 Tree & Wood Structure. 2 Agenda lTree components »Stem, crown, roots »Hardwood versus softwood lMacro wood structure »Reaction.

Chapter 5 The woody cell wall 木材细胞壁

UNIT 4: PLANT TISSUE.

Anatomy Review BIO Botany. Herbaceous stems Have separate vascular bundles In each bundle: - Xylem toward center - Phloem toward outside Bundle.

Chapter #42 – Plant Anatomy & Nutrient Transport

Shujun Li Department of Forest Products Chemical Processing

"Disability Resources for Students (DRS) is looking for a notetaker for this class to assist a student who is unable to take complete class notes because.

MECH 450 – Pulping and Papermaking Topic 2 - Natural Resources James A. Olson, Nici Darychuk Pulp and Paper Centre, Department of Mechanical Engineering,

Plant Cell Walls Chapter 3. Where is the cell wall of plant cells located? A.Inside the plasma membrane B.Outside the plasma membrane C.Between the plasma.

Lumber Wood. Tree Growth  1.Dead Bark – Protective Layer  2.Living Bark – Composed of hollow longitudinal cells that conduct nutrients down the truck.

Chapter 11 Variability of wood within species 木材种内变异性 Wood produced by trees of the same species is often mistakenly assumed to be identical in all structural.

Tree Trunk zones Wood zones Growth rings Cellular anatomy Microfibril Chemical Ultrastructural Levels of scale in study of wood structure.

Then… ….and Now. 2 Old growth Second growth Stand age vs. percent of juvenile wood When trees grow rapidly so that they are of harvestable size when.

FRST 305 Photosynthesis, Respiration, Crown development and Wood formation.

Tree growth and juvenile wood formation

Transmission Electron Microscope Scanning Electron Microscope Light Microscope.

1 Reaction wood is formed as a response by the tree to a triggering event such as tipping from the vertical. It is also known to regulate the orientation.

Xylem structure and function

1 WOOD 280 – Macroscopic wood anatomy features Grain Figure Knots (Hoadley)(CMSA)

Terms to Know  Common Name –  The general name given  Genus/Species Name-  The name given in Latin  Hardwoods-  Wood cut from Deciduous Trees (Broadleafed)

Forestry 280: Hardwood Anatomy

Wood A. Types Hardwoods or Angiosperms (some are soft) Softwoods or Gymnosperms (some are hard)

Wood Technology.

TASK – Start a mind-map for wood types

Stems. Outline External Form of a Woody Twig Stem Origin and Development Stem Tissue Patterns Herbaceous Dicotyledonous Stems Woody Dicotyledonous Stems.

WATER IN WOOD Free Water is in cell lumens, and intercellular spaces.

Definition Wood is a plant but not all plants possess woody stems and not all that have woody stems are suitable for papermaking.

Plant Cells and Tissues. Early embryonic plant tissues consist of 3 primary cell types: Collenchyma Sclerenchyma Parenchyma - various combinations, percentages,

S2 Lumen Primary Wall Secondary Wall -- S1, S2, S3 Primary Wall very thin and stretchable present when cells enlarging. Microfibrils randomly arranged.

MATERIALS & THEIR PROPERTIES

Lecture #19 Structure of Wood.

Wood Structure Wood Structure.

Tree Design. Structure - Function

BRC Science Highlight Altering carbon allocation in hybrid poplar impacts cell wall growth and development Objective In this study we test the hypothesis.

Wood Anatomy and Identification

Engineering construction Prof. Syed Ali Hussnain 1.

How plant hormones affect growth.

Then… ….and Now.

WOOD 280 – Macroscopic wood anatomy features

Lecture 9 Lignin Biosynthesis

Wood Chemistry PSE 406 Tree & Wood Structure.

Industrial Technology Timber Stage 5

Microfibril angles of softwood and hardwood pulp fibres

Plant Cell and Anatomy AICE Biology.

Wood Anatomy and Identification

Wood Chemistry PSE 406/Chem E 470

9.2 Transport in angiospermophytes

WOOD 280 – Macroscopic wood anatomy features

Tree growth and juvenile wood formation

Subheading Palatino Linotype 14pt Lecture at xxx on

Reaction Wood Reaction wood is formed as a response by the tree to a triggering event such as tipping from the vertical. It is also known to regulate the.

Secondary Growth.

Wood Chemistry PSE 406 Tree & Wood Structure.

WOOD 280 – Tree growth and wood formation

Presentation transcript:

Reaction Wood Reaction wood is formed as a response by the tree to a triggering event such as tipping from the vertical. It is also known to regulate the orientation or angle of branches relative to the main stem. (Haygreen & Bowyer)

The terminology used to describe reaction wood formed in softwoods and hardwoods comes from the stresses normally present in those locations. However, those stresses themselves are NOT responsible for the formation of reaction wood. (Haygreen & Bowyer)

Compression Wood Wind (Haygreen & Bowyer) (Hoadley)

Compression wood – characteristics and properties Anatomy Wider growth rings More latewood Shorter longitudinal tracheids Rounded cells with intercellular spaces Helical striations (following S2Ө) Ultrastructure Larger S2Ө S3 absent New S1L layer Chemistry More lignin Less cellulose Hemicelluloses differ Properties Higher wood density Compression strength ↑ All other strengths ↓ Brittle failure Greater longitudinal shrinkage Lower pulp yields

Compression wood – macroscopic appearance (Hoadley)

Compression wood – microscopic appearance Light microscope Scanning electron microscope Transmission electron microscope

Ultrastructure of longitudinal tracheids (Josza)

Compression wood – microscopic appearance Normal wood Compression wood Compression wood

Tension Wood Wind

Tension wood – macroscopic appearance (Hoadley)

Tension wood – microscopic appearance (Hoadley) G-layer Aspen tension wood Aspen normal wood

Tension wood – appearance of G layer Microfibril orientation

Tension wood – characteristics and properties * Tension wood – characteristics and properties Anatomy Fibers affected not vessel elements Gelatinous fibers (G-layer) Ultrastructure SG - after S3 - replaces S3 - replaces S2 + S3 - replaces some of S1 + S2 + S3 Microfibrils less closely packed Low Ө in G-layer Higher S1Ө Chemistry More cellulose Less lignin Hemicelluloses differ Properties Higher wood density Compression strength ↓ Seasoning defects Higher pulp yields Poor workability (“fuzzy” grain)

Location of reaction wood formation Compression wood formation in horizontally oriented stem. Compression wood is found on underside of stem – not on side of stem under compression. (Haygreen & Bowyer)

Location of reaction wood formation Reaction wood formation in growing looped stem. Compression wood is found consistently on underside of stem and tension wood is found consistently on upper side of stem (regardless of the nature of the stresses experienced in those locations). a. Softwood b. Hardwood (Haygreen & Bowyer)